Time zone telephone metering system



Oct- 9, 1951 H. L. HoRwlTz v 2,570,239

TIME ZONE TELEPHONE METERING SYSTEM lNvENToR HENRY L. /ORW/TZ ATTORNEY Oct. 9, 1951 u H, L, HoRwn-Z 2,570,239

TIME ZONE TELEPHONE METERING SYSTEM 3 Sheets-Sheet 2 N "Ik wmf-Fig Hl ur i E213' QC) Filed Dec. l5, 1948 OM m0 o mobo Y v i l h 5% H HI' ist N A t.. t.. l N n LEAN-I' f INVENTOR HENRY l.. HORW/TZ ATTORNE Filed D80. l5, 1948 3 Sheets-Sheet 5 INVENTOR //VRY L. HORW/TZ ATTO R N EY Patented Oct.` 9, 1951 TIME ZONE TELEPHONE METER'INGSYSDEM Henry Leopold Horwitz, Rutherford, N. J., assignor to Federal Telephoneandltadio Corporation, New York, N. Y., a corporation ofjDela- Ware Application December 15, 19.48, Serial.'N o.-,65,46"7` 13 Claims. (01.1'79--2119v .This invention relates to automatic telephone systems and is ,particularly directed to new and useful improvements in time-zone metering.

AWhen telephone charges are recorded. on a meter associated with a calling subscribers line, themeter is operated to add` one or more counts to fthe total count depending upon the central oflice or Zone in which the called subscribers line is located. The number of times the meter is to be voperated maybe determined by the outgoing trunk or, in systems employing registers, bythe oflice code recorded in the register for the called subscribers number. The means for operating the registerthe proper number of times may likewise be controlled either from the out* going trunk or from a special circuit which is seized bythe register.

.According to this invention the impulse repeater connected in the outgoing trunk is adapted toconnect with an interrupter circuit common to.a plurality of such repeaters. The line meter is vthen .operated by the interrupter circuit a numbercf times as-determined by the impulse repeater.

VOne object of the invention is to provide means inthe repeater for preventing the further operation of the line-meter after the count for a given call has been recorded.

A,further objectof the invention is to provide Within the common interrupter circuit a means iormeasuring time whereby .a repeater circuit may control the re-operation of the meter after a. predetermined time interval has elapsed.

.A-still further objectr of-theinvention is to provide for the simultaneous operation of several line meters in such a `manner that each line meter will be operated ,the .proper number of times as determined by therepeater circuit.

A still further object of the invention is to arrange theinterrupter circuit merely to signal to a repeater when adenite time interval has expired and to provide inthe repeater itself a means for determiningthe predetermined interval allowed for a conversation. Means are providedor permittingseveral repeaters to measure time .intervals not necessarily starting at the same instant.

,The ,abovefmentioned and other features and objects of this invention and the manner of attaining `them will `become more apparent and theinvention itself will ,he best understood, by reference to the following description of an embodiment ofthe invention taken in conjunction with-the accompanying drawings, wherein:

"Fig 1 .shows a line finder-selector `link artogether with `the conilfnn .nterrupter .circuit` .The common 'switches MSI and MS2 with Atheirrnagnets DMI Which `4.provides .the time interval `signals and applies booster ,battery for operating the meter as detel.11f1iI1..,id.by.arepeater Fig. 3 shows aline switch and selector arranged'to .-prcvde'fcr theopcration of the line meter.

"The circuits show `the relay-contacts dis-associated from-'the winding of the relay which controlsthem. `'The winding of the relay is designated by-a capital oruppercase letter under which General description When the .calling .central oce is equipped with` line finders the circuits per Figs. 1 `and.2 areused. When `line switches areprovidedinthe calling :central oflice .thecircuit per Fig. 3 replacesithecircuit periFig. .1.

Reiering `to liig.` 1,the subscribers` line isconnected .thrcugh.a, line nderand adouble wound relay L tothe selector circuit.

The circuits ,for the .line nder and selector, not shown, may be of the conventional type. Whenthe selector. is directivelycperated, brushes 5,..6 and I=2,connect Vwith conductors l, tandl L3 leading to theputgoing .impulse repeater shown in Fig?.

Fig. ,-2 -shows an impulserepeater and thelcommondnterrupter,circuitto .which ,one or more `repeatersmayconnect themselves. Conductors .'I andB are extended throughcondensers cl and c2 to `conductors I4 `and I5 of a trunk leading to a distant ofce. The-distant central oiiice is not shown but it may be any type of automaticiofce in which the current flowing over the two conductors L4 andilli inseries iromthe distant central olice is reversed `when lthe calledpartyanswers.

The commoninterrupter circuit -for applying booster `battery a number of times according to thedistant cnicelto whichatrunk is connected, is shownV at theright in Fig. 2. Conductors-I6 to 24inclusive connect to the several repeater cir-V cuits served by the .common` interrupter circuit. Conductor I6 is shown Aterminating in a terminal 26 with cross connections 2l and,28 one ofrwhich will be employed depending upon whether two` orthreeoperationsof the meter are to be made. circuit includes two marker .This

and CB which are adjusted to operate and release in a predetermined time and thus provides a time measure for controlling marker switch MSI. Marker switch MS2, which operates once for each cycle of marker switch MSI, measures a denite time interval and controls the operation and release of the time measure relays of the. repeater circuit.

In Fig. 3 the trunks to selectors from the line switches are reached through the brushes 36, 31, 38 and 39 of the line switch. vThe operation of the circuit is similar to that of the line'finderselector circuit of Fig. 1. The selector circuit is not shown and only -that part of the line switch circuit necessary for the operation of the line meter is shown. The selector brushes 40, 4I and 42 are driven to the terminals 'I, 8 and I3 .of the repeater in the conventional manner.

Operation with Zine finder-selector link When the receiver is removed from the switchhook at the substation, the line nder is operated in the conventional manner and brushes 3, 4 and IIJ connect with conductors I, 2 and 9, as shown vin Fig. 1. The line is connected through to the selector but relay L does not operate at this timeV because the direction of the ow of current is such that the rectii'lers MI and M2 short circuit the windings of relay L. When the subscriber dials, brushes 5, 6 and I2 of the selector are stepped in the conventional manner to connect with conductors 1, 8 and I3 leading to an idle repeater circuit shown in Fig. 2,

Y Absence of ground on conductor I3 allows the selector `to seize this circuit. Relay A is operatedlfrom the sub-station over a circuit from battery, right-hand winding of relay A, conductorl, selector brush 5, upper winding of relay L in parallel with rectifier M2, line nder brush 3, conductor I, subscriber station, conductor 2, line finder brush 4, lower winding of relay L in parallel with rectifier MI, selector brush 6, conductor 8, left hand winding of relay A, contacts pI and sI to ground. Y

The operation of relay A connects ground at a2 to operate relay B. The upper winding of relay F is connected across trunk conductors I4 and I5.at contact al Vwhich also short circuits the normally operated relay E. Relay F does not operate at this time due to the direction of the current from the distant oiice over conductors I4 .and I5. The operation of relay B connects ground to holding Vconductor I3 to hold the connection from the selector and to make the repeater busy to other calls at contact bI which also energizes the polarizing winding of relay F. At contact b4 part of the alarm circuit is opened and at contact b3 a holding circuit for relay G is prepared to prevent its release during the metering cycle if the dialed subscriber, in answering, accidentally causes the intermittent operation of relay F and a holding circuit for relay D is prepared to prevent further metering on a call once the metering cycle is completed. At contact b2, the operation of relay B prepares part of the circuit for operating relay C during impulsing. Relay E, on restoring, closes contact eI to complete a multiple circuit to the polarizing winding of relay F and to provide a ground for part of the alarm circuit.

`Relay A followsthe impulses received from the calling dial at the sub-station and at contact aI repeats these impulses to the distant selectors over conductors I4 and I5 to establish the connection to a called station. When relay A releases,

` relay E'.

When the called subscriber answers, current from the distant office over conductors I4 and I5 is reversed and relay F operates. This is the signal to the repeater circuit to operate the line meter.

gl, front contact f i, common conductor Il, winding of relay ST to ground. Relay ST is a high resistance relay so that relay G is not operated Relay ST operates to energize the.

at this time. interrupter circuit if it is idle or to maintain the continued operation of the interrupter circuitA if it is in use.

As previously described, the interrupter circuit comprises two marker switches MS! and MS2.,

The marker switch MSI operates relays BST, AR, BR, CR and BSP in sequence and contacts ofA these relays transfers the holding conductor from ground to booster battery 44 to operate theline meter. Each complete revolution of marker switch MSI causes marker switch MS2 to advance one step. Marker switch MSI is stepped underV control of relays BB and CB at Contact ab2 which connects ground to the magnet DMI of marker4 i The relays BB and CB form a step- .v ping control circuit. Ground from contact db2,H operates relay BB to remove the short circuitfrom switch MS I.

the winding of relay CB at contact bbl. When CB operates the winding of relay BB is short. The two relays BB and,4 CB are slow acting relays and their cycle of op-` eration may be controlled by resistance RI to pro-i circuited at contact cbI.

vide one revolution or cycle of marker switch MS I` in approximately I 2 seconds. Hence, the marker switch MS2 advances one step for each 12 seconds making ten steps in seconds or two minutes.; Magnet DMZ of marker switch MS2 is operated from ground at contact bsp4. Each time marker switch MS2V completes a cycle and is in position II ground is connected to one of the common wires I9 to 22 inclusive, which signals the repeater circuit to mark the elapsed time in intervals of two minutes. Since the interrupter circuit is common to a plurality of repeater circuits pick-up relays are employed to synchronize the2 repeater vcircuit with the time intervals and the line meter operations of the common interrupter circuit, as will be described later.

As previously described, relay ST is operated when contact fl of a repeater circuit is closed by the operation of relay F. At contact stl a f circuit is completed from ground, marker switch MSI in position I, winding of relay AB to battery. Relay AB operates and locks through its contact abl to contact bspI.

as previously described. This energizes magnet DMI intermittently and steps the marker switch MSI over the bank contacts to operate relays BST, AR, BR, CR and BSP in sequence as the brush of marker switch MSI passes bank terminals 3, 5, I, 9 and II.

It will be noted that a momentary short circuit S placed 0n, the Winding of relay ST by contact At Contact fi a circuit is closed from. battery, winding of relay G, back contacts d5 and,A

l At contact ab2 the4 interrupter relays BB and CB begin operating f 'ibstl :tas #the Vmarker .f switch MS l. is 'passing `foyer 'position`f3 tooperate relay G. "lRelaytG is `op- Icrateri .as :a "'-pick-up relay l only at thebeginning of ithe Llnterrupter cycle, thus Ainsuring the proper 'fnumber of `metering pulses. Blf the interruptor circuit is r-engaged, f-a repeatervcircuit :cannotfcon- -nectits 'fho'ldin'g conductor itc common :conductor SIB until imarker Lswitch `MSI passes .over position -J'onfthe next cycle. Whenrelay STI iscperated, contactstfl `-completes a circuit vfor `I'operat'iI-ig `re lay B"lfrom ground, brush and 'terminal `I of marker switch MSI, contact stl, winding of relay AB Vtdbattery. Relay ABlocks via contacts abl .andtbspl to ground. At contact ab2ground is connected-to :the Astepping y control relays vBBl and CB. Normallyrelay .CBisshort circuitedby con- ',tact bbzl :of relay .BB-and when relay CB :opcrates ncontactcb'l short circuits :relay 213B. f 'Each operation of relay CB, zat contact-0112, closes Vthe circuit for the magnet DM l of .the .marker switch -MSI and the brush is advanced tto `.the next vposition. When the kbrushmoves rofl .normal contact .l2 of `marker switchMSI `is closedto 'insure'that thelrnarlrer` switch MSI completes va cycle. .As the brush Vof marker switchMSl is steppedfrom yposition to position, ground isconnectedlto relays BST in position 3, 'AR-imposition 5,-BR inposition 1, CR. in position 9, and BSPin positionxl I.

:The-operation of .relay BST, :at contactxbstl, short.` circuits relay ST tand operates relayG of lthe repeater circuit. Contact g3-ofrelayGtransferseholding conductor I3 yfrom ground at` contact bl of -therepeatercircuit toconductor I6,of

the interrupter circuit. If cross connection 2'l 'is used the inter-runter vcircuit willapply booster batterydll =to holding 'conductor I3 When-.AR .opvcrates .and when BR operateswas the marker vswitch is .passing :through positionss and :1 respectively, thus applying .metering acurrent to 'holding conductor I3 Vto operate the linecmeter itmceiand add twotcounts to thexmeter. If cross connection :2BA is employed booster .battery fllll -will be` ,appliedtto fconductor. il'3` three .timesby the Vadditionalfoperation ofrelayCR when-the marker :swit'chwpassesthrough position 1." Thus,.as shown in Fig. 2, the interrupter.circuitrnayfcause` 2 or 3 operations .of the :line .'meter.

`Itis-.to ibenote'd `that when the subscriber'zan- 'swers tand :relay `il' operates, the current tothe callingfsubscriber'through :relay A -isvnotereversed Hencarrelay -L of Fig. luis not operatedonconnections through the repeater. `Referring toEig. -1.,1 whenbooster battery is applied Vtoffconductor :1.3. line :meter MR` is `smerated 'via selector hbrush l2, contact I I4, line finder brushlo, conductor i9.; andrectier RMR. The :operation of :relay.:P

nf Eig. latfthis 'time is ineffective.

v Atfcontact g2, the .upper winding ofxrelay D is connectedover common conductor llcthrough vcontact bspl .of relay BSP. When themarker vswitch'completes itsrcyclefand relay :BSP .operates imposition l I, relay .D is operated and locks :to holdingzrelay IB at `.contacts b3V .and 112. Atwcontactfd, relayD -opens thefcircuitlofrelay .G which releases. Relay'D remains energized :being locked to contactb3xofrelay'B. WhenirelayBSP `cpmated: a :circuit ffor marker :switch MS2 :is 'closed atV `Contact .bspd and .magnet =DM2 fof :marker A'switch MS2 operates. d Aroundvfromacontact dl ofrelay' .D `of fthe :repeatercircuit fover-'eornmcn 4conductor 2.5 V:continues .the operation of the :in- `tem'upter :relays .BB rand CB` cancltmarker switch MSI continues to rotate. Each ,time marker switch MSI completes la cycle-and .at position 1l I operates ,-relay BSP, marker :switch yis radyancedtfone position. .Markerzswitch Msfoontinueswzitsroperation onfevery cycleof marker switchMSL until it reaches position llpand 'marker :switchi MSI continues :through fthe :next cycle.

As previously described, .the `operation of the stepping control relays BB `and CB is such that markertswitch VMS2 completes la 'cycle by taking elevenstepsnapproximatelytworminutes ,Each timeimarker switchMS2 reaches the leleventhrposition,.;'gr,o.und is `placed von common' vconductors sl.9,;`2;0,.2l and .2.3. Thus, if ground isappliedto someoneof these four. leads oneachreyolution ofwmarker switch MS2 a total Atime 'of eight mlnutes willhave elapsed. The circuitisarranged sothat each pulse over the commonleads tIB-Lto 22`inclusive, is operative in the repeaterfcircuit inthe reverse order. The :rst metering :cycle may vary from approximately six to .elghttminutesibut eac'hsucc'eeding timing cycle will remain constant :at approximately six minutes.

When marker switch MS2 arrives: at .position ill on `.the iirst cycle and .marker .switch MS] passes positionfll to operate relay BSl?, ground from thelmarker switch MS2,xposition `I;l,x con tact bsp2, common conductor 22, contacts vs2 and p3, upper winding of relay P4, contactdtresistance 25 to battery operates relay P. "Relay Peon operating,l locksritself at contact p3, prepares the operatingzcircuit at 'relay S 'at pZuand opens knockdown circuit of relayJD atpd. Onthe next cycle .when MS2 reachesposition Ilsand relay CR is operated as MSI passes through posi- .tion Il, relay Sis .operated from ground, marker switch MS2,.position II, `contactfcr3,zconductor \2.l,;upper `winding of relayS, contacts p2, s3and d4, resistance '25 tobattery. 'Relay S locks =to batterythrough resistance 25 on its lower winding. The operation of relay S closesl part ofthe kncckdown circuit for relay VD at s4, `opens vthe operating-circuit of relay AP at s2 `andclcfsesxthe knockdowncircuit for .relay P at sl. VlJI/'henthe markersswitch'l-ISZ in the next cycle. thenfarrives at position VI I ground through contact br3,fwhen relay BR operates in position 5 of marker 'switch MSlgconductorZll, contacts pl and sl, energizes the `lowerwinding of relay P which causes relay Puto release. `Relay P opens the starting kcircuit 'for relay S andcloses the knoclrdown circuitor relayiD.

It'fis tolbe noted at this time that :relay P which, when operated, connected ground directly Atothe right-hand winding of battery feed relay A, now .connectsithis winding through contacts pl and sl, contactttl to-ground over common conductor 23. On'the` last.1cycle, when the marker switch MSZvarrives-fin `position 6 or approximately one Yminute before thenext operation of the meter, re-

lay"TT operates when relay 'CR is operated by MSI viarcontact 'cr-2 and holds untilMSl passes through position .Il to operate relay BSP. During the operation of. relay TT, .warning tone Vis applied through the righthand winding of relay A to thecalling subscriber rso that vhe `may hang up `before .the second metering `isfstarted.

IfA he :does not hang up vthen when 'the .marker switchcMSZ arrives in position lland relay `AR.

operates 'in 'position 5 of marker switch MSL- ground yover 'conductor 4I9 energizes .the lower winding of relay D causing the relay to release. Theireleaseof relay D re-connects relay G tothe start relayST and .the-metering and timingcycle4 is repeated. It :is obvious that the cycle of timing and '-metering for overtimewill begre- Peatedluntilfthe connection is released.

."It i's'to' be .noted that'a plurality of repeater circuits maybe in the .process of timing and meteringunder control of the common inter:- rupter circuit because the timing' is controlled 'by the sequential operation and release of the relays D, P 'and S of each repeatercircuit.

It is also to be noted that the holding conductor I3 is extended by contact g3 of relay G to the common conductor I6 and thence as required to the booster battery 44. Relay G is released after the completion of metering and is'prevented from further operation by the operation of relay D when marker switch MSI completes a iirst cycle of operation. Relay D cannot be released until the vtiming cycle is completed. If the timing cycle is completed and the connection is still held by the calling party, relay G is again operated and the complete cycle of timing metering is repeated. Y

',It is also to be noted that when the relay G is operated, the connection cannot be released by the calling party because the release of the connection is controlled solely by the interrupter circuit through contact g3. This insures the recording of the complete charge for the call. When the calling party disconnects, relay A is released followed by relays B and F. Relay C is operated momentarily and connects ground to holding conductor I3 to guard the repeater against seizure by other calls While the distant automatic selectors are releasing. Relay Eis a high resistance relay, normally operated from battery from the distan-t end, and may4 function as anlalarm relay. If the trunk conductors should become grounded or open, relay E releases. Contact eI connects ground to holding conductor I3 and via contact bil to the alarm lamp and alarm conductor 29. The re# peater is made busy and cannot be seized when a fault occurs on the trunk.

An alarm is provided for vthe common interrupter circuit. Whenever ground is applied to this circuit over common conductor 24 or from the contact db2 of the ofinormal contact 32 of marker-switch MSI, the operating circuits for relays AL and BL are closed. Relay AL is a slow operating relay and relay BL is a slow release relay.V 'Relay BL operates when stepping control relay' BB fails to operate within the operating time of relay AL. If this should occur, indicating' thatv the stepping circuit for marker switch MSI has failed, the operation of relay AL opens the'circuit for relay BL and after a time BL will release and complete the circuit to the alarm conductor 30. Magnet DM2 of marker switch MS2 controls a contact 33 which opens each time the magnet operates. If the magnet fails to re lease this circuit the operation of relay BB releases AL and after a time BL releases and completes the circuit to alarm conductor 3U.

Operation of line meters with line finder-selector f links on local calls Referring to Fig. 1, when the receiver is re` moved from the switchhook the line finder is operated and brushes 3, l and I 0 connect with conductors I, 2 and 5. Battery, not shown, from the selector is extended to the subscribers station and ground is applied to the holding conductor I2`v to operate relay P. Relay L is prevented from operating by the rectiers MI and M2 and relay L cannot operate until battery is reversed over conductors 'I and 8 when the called party answers. rlhis operates relay L and in turn relay LL operates from ground on the holding conductorx." Relayj; LL opens thecircuit of slow rey? lease relay P.- 'Until relay P releases,- contact pI connects'the booster battery 44 via-contact I-Iv4- to line finder brush IU and conductor 9 to operate the meter MR. It is to be noted that when the circuit of Fig.'1 is connected to the repeater there is no reversal of battery to cause the operation of relay L and the .consequent operation of the meter as 1 just previously described. Hence, boosterbattery applied to holding conductor I3, as described,v will operate the meter directly.

Operation of line meters with line switches 'When line switches are employed to connect a calling line to a selector the circuit per Fig. 3'i's used. Line meter MR is operated over a separate conductor 39. When battery is reversed on a local call, relay L operates and in turn operates relay LL. Y Relay P releases slowly and :completes a circuit/from ground, contacts p2 and IIII 'to conductor 39 to operate meter MR. When bat' tery Vis notreversed, due to the repeater of Fig. 2, the booster 'battery from holding conductor I3, via selector 'brush'llZ operates relay BP which is in series with a rectiiier MRA. The operation of relay BPcloses ground via contact bpl to con,- ductor'39 thereby operating the meter MR each time relay BP is operated. While I have described above the'principles of my invention in connection with specificV apparatus it is to be clearly understood that this de"-V scription's made by Vw'ay ofv example and not a's a limitation tothe scope of my invention.

Iclaim: 1. In an automatic Vtelephone system, meters connected to subscribers lines for recording the charges for calls, automatic selectors and refpeaters ifor establishingconnections from calling to called lines, an interrupter circuit operatively connectedto be seized concurrently'by'one or more of the' repeaters, means controlled by the interrupter circuit for operating the line meters, and means in. said interrupter circuit for con# trolling the operation of said line metersa nu1`n`- ber of times as determined by the one of said lre` peaters connected thereto. 2. The system according to claim 1, and,'in which the line meters connected to a plurality'of calling subscribers lines are loperated simultaneously, the number of operations of each meter being determined by the'particular repeater irl-'- cluded inthe established connection.v 3. In an automatic telephone system, sub; scribers lines, automatic selectors and impulse repeaters for establishing connections from calling 'to called lines, service meters connected t0 the subscribers lines and operable for recording one'or more service counts depending upon an established connection, an interrupter circuit operatively connected to be seized in common by one or more limpulse repeaters, means under con-'.- tr'ol of the interrupter circuit for operating the service: meters, and means inY said interrupter circuit for operating the first said means a num` ber of times as determined by said impulse re-'r peater included in an established connection.

" 4. The system 'according to claim 3, and, in which the service meters connected to a plurality of calling subscribers lines are operated simule. taneously,` the number of counts of each meter being determined by the particular repeater included in the connection established by the ealling'subscriber. 5. In' an automatic telephone system, sub-'- scriberslines", automatic selectors and impulse repeaters for establishing connections from calling to called lines, a service meter cbnnected to each subscribers line and operable to record one or more counts depending upon an established connection, an interrupter circuit operatively connected to be seized in common by one or more impulse repeaters, means under control of the interrupter circuit for operating the service meter connected to a calling line when the called line answers, means in the interrupter circuit for operating the lirst means a number of times as determined by the impulse repeater included in the established connection, and means in said repeater for preventing the further operation of said service meter.

6. In an automatic telephone system, a plurality of subscribers lines each including a service meter connected thereto, a plurality of automatic selectors and repeaters for establishing connections from a calling line to a called line, an interrupter circuit connected to be seized in common by a plurality of repeaters, means under control of the interrupter circuit for operating the service meter connected to a calling line when the called line answers, and means in the interrupter circuit for simultaneously operating a plurality of service meters each connected to a calling line as determined by the repeater included in the individual connection established by each calling line.

7. In an automatic telephone system, a calling subscribers line, automatic selectors and an impulse repeater for establishing a connection from the calling line, a service meter connected to the calling line and operable to record one or more counts as determined by the impulse repeater, an

interrupter circuit connected to be seized in com mon by one or more impulse repeaters, means under control of the interrupter circuit for operating the service meter, and means in said interrupter circuit for controlling the operation of said service meter a number of times as determined by said repeater.

8. In an automatic telephone system, subscribers lines, automatic selectors and impulse repeaters for establishing connections from calling to called lines, service meters connected to said subscribers lines and operable to record one or more counts depending upon an established connection, an interrupter circuit positioned to be seized in common by two or more impulse re peaters, means under control of the interrupter circuit for operating the service meters a number of times as determined by the impulse repeater included in an established connection, preventive means in the repeater for preventing the further operation of the service meter, means in the interrupter circuit for measuring an interval of time, and means in said repeater circuit for rendering said time measure effective to remove said preventive means and permit the further operation of said service meter after a predetermined time is measured.

9. In an automatic telephone system, subscribers lines, automatic selectors and impulse repeaters for establishing connections from calling to called lines, service meters connected to said subscribers lines and operable to record one or more counts as determined by the impulse repeater employed in an established connection, an interrupter circuit operatively connected to be seized in common by two or more impulse repeaters including relays operated sequentially by a marker switch for controlling the operation of the service meters and stepping relays for operating said marker switch.

10. The system according to claim 9, in which said stepping relays are connected to operate said marker switch in predetermined time steps.

11. In an automatic telephone system, subscribers lines, automatic selectors and impulse repeaters for establishing connections from calling to called lines, service meters connected to said subscribers lines and operable to record one or more counts as determined by the impulse repeater employed in an established connection, an interrupter circuit positioned to be seized in common by two or more impulse repeaters, means under control of the interrupter circuit for operating the service meters, a rst marker switch included in the interrupter circuit controlled by timed stepping relays for operating the first means, a second marker switch included in the interrupter circuit arranged to advance one position for each complete cycle of the first marker switch, relays in the impulse repeater connected to be operated in sequence by a combined action of the two marker switches included in the interrupter circuit, a circuit for the relays, and means included in said circuit for preventing the re-operation of the service meter until a predetermined time has elapsed.

12. In an automatic telephone system, subscribers lines, automatic selectors and impulse repeaters for establishing connections :from calling to called lines, service meters connected to said subscribers lines and selectively operable to record one or more counts as determined by the impulse repeater employed in an established connection, an interrupter circuit connected to be seized in common by two or more impulse repeaters, means under control of the interrupter circuit for operating the service meters, iirst and second marker switches included in the interrupter circuit, the rst marker switch being controlled by timed stepping relays and operative to actuate the first means, the second marker switch being advanced one position for each complete cycle of the rst marker switch, relays individual to each impulse repeater operable to prevent the reoperation of the service meter and to count the cycles of the second marker switch, a circuit for the relays, and means included in said circuit for REFERENCES CITED The following references are of record in the i'lle"` of this patent:

UNITED STATES PATENTS Number Name Date 2,232,181 McClew et al Feb. 18, 1941 2,331,013 Balzer Oct. 5, 1943 2,372,353 Bascom Mar. 27, 1945 2,457,946 Taylor Jan. 4, 1949 Dunning Dec. 27, 1949 

